/*
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 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
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package org.apache.lucene.util;

import org.apache.lucene.util.IntBlockPool.Allocator;


A Allocator implementation that recycles unused int blocks in a buffer and reuses them in subsequent calls to getIntBlock().

Note: This class is not thread-safe

@lucene.internal
/** * A {@link Allocator} implementation that recycles unused int * blocks in a buffer and reuses them in subsequent calls to * {@link #getIntBlock()}. * <p> * Note: This class is not thread-safe * </p> * @lucene.internal */
public final class RecyclingIntBlockAllocator extends Allocator { private int[][] freeByteBlocks; private final int maxBufferedBlocks; private int freeBlocks = 0; private final Counter bytesUsed; public static final int DEFAULT_BUFFERED_BLOCKS = 64;
Params:
  • blockSize – the block size in bytes
  • maxBufferedBlocks – maximum number of buffered int block
  • bytesUsed – Counter reference counting internally allocated bytes
/** * Creates a new {@link RecyclingIntBlockAllocator} * * @param blockSize * the block size in bytes * @param maxBufferedBlocks * maximum number of buffered int block * @param bytesUsed * {@link Counter} reference counting internally allocated bytes */
public RecyclingIntBlockAllocator(int blockSize, int maxBufferedBlocks, Counter bytesUsed) { super(blockSize); freeByteBlocks = new int[maxBufferedBlocks][]; this.maxBufferedBlocks = maxBufferedBlocks; this.bytesUsed = bytesUsed; }
Params:
  • blockSize – the size of each block returned by this allocator
  • maxBufferedBlocks – maximum number of buffered int blocks
/** * Creates a new {@link RecyclingIntBlockAllocator}. * * @param blockSize * the size of each block returned by this allocator * @param maxBufferedBlocks * maximum number of buffered int blocks */
public RecyclingIntBlockAllocator(int blockSize, int maxBufferedBlocks) { this(blockSize, maxBufferedBlocks, Counter.newCounter(false)); }
Creates a new RecyclingIntBlockAllocator with a block size of IntBlockPool.INT_BLOCK_SIZE, upper buffered docs limit of DEFAULT_BUFFERED_BLOCKS (64).
/** * Creates a new {@link RecyclingIntBlockAllocator} with a block size of * {@link IntBlockPool#INT_BLOCK_SIZE}, upper buffered docs limit of * {@link #DEFAULT_BUFFERED_BLOCKS} ({@value #DEFAULT_BUFFERED_BLOCKS}). * */
public RecyclingIntBlockAllocator() { this(IntBlockPool.INT_BLOCK_SIZE, 64, Counter.newCounter(false)); } @Override public int[] getIntBlock() { if (freeBlocks == 0) { bytesUsed.addAndGet(blockSize*Integer.BYTES); return new int[blockSize]; } final int[] b = freeByteBlocks[--freeBlocks]; freeByteBlocks[freeBlocks] = null; return b; } @Override public void recycleIntBlocks(int[][] blocks, int start, int end) { final int numBlocks = Math.min(maxBufferedBlocks - freeBlocks, end - start); final int size = freeBlocks + numBlocks; if (size >= freeByteBlocks.length) { final int[][] newBlocks = new int[ArrayUtil.oversize(size, RamUsageEstimator.NUM_BYTES_OBJECT_REF)][]; System.arraycopy(freeByteBlocks, 0, newBlocks, 0, freeBlocks); freeByteBlocks = newBlocks; } final int stop = start + numBlocks; for (int i = start; i < stop; i++) { freeByteBlocks[freeBlocks++] = blocks[i]; blocks[i] = null; } for (int i = stop; i < end; i++) { blocks[i] = null; } bytesUsed.addAndGet(-(end - stop) * (blockSize * Integer.BYTES)); assert bytesUsed.get() >= 0; }
Returns:the number of currently buffered blocks
/** * @return the number of currently buffered blocks */
public int numBufferedBlocks() { return freeBlocks; }
Returns:the number of bytes currently allocated by this Allocator
/** * @return the number of bytes currently allocated by this {@link Allocator} */
public long bytesUsed() { return bytesUsed.get(); }
Returns:the maximum number of buffered byte blocks
/** * @return the maximum number of buffered byte blocks */
public int maxBufferedBlocks() { return maxBufferedBlocks; }
Removes the given number of int blocks from the buffer if possible.
Params:
  • num – the number of int blocks to remove
Returns:the number of actually removed buffers
/** * Removes the given number of int blocks from the buffer if possible. * * @param num * the number of int blocks to remove * @return the number of actually removed buffers */
public int freeBlocks(int num) { assert num >= 0 : "free blocks must be >= 0 but was: "+ num; final int stop; final int count; if (num > freeBlocks) { stop = 0; count = freeBlocks; } else { stop = freeBlocks - num; count = num; } while (freeBlocks > stop) { freeByteBlocks[--freeBlocks] = null; } bytesUsed.addAndGet(-count*blockSize*Integer.BYTES); assert bytesUsed.get() >= 0; return count; } }